An agricultural implement includes a frame having a longitudinal axis and laterally opposed sides and motive supports mounted to and supporting the frame. The agricultural implement further includes a first wing carried by the frame and at least one second wing, in which each second wing is pivotably connected to the first wing. The agricultural implement also includes an elevator mechanism configured to raise and lower the first wing and the second wing. Each second wing is connected to the first wing by a wing pivot assembly that includes a skewed hinge pivotably connecting one of the second wings to the first wing. The wing pivot assembly allows each second wing to pivot with respect to the first wing between an operating position and a transport position, in which the skewed hinge defines a first pivot axis oriented at an acute angle with respect to the longitudinal axis.
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1. An agricultural implement comprising:
a frame having a longitudinal axis and laterally opposed sides;
motive supports mounted to and supporting the frame;
a first wing carried by the frame and at least one second wing, each second wing being pivotably connected to the first wing;
an elevator mechanism comprising a first actuator configured to raise and lower the first wing and the second wing; and
a wing pivot assembly comprising a skewed hinge pivotably connecting each second wing to the first wing, wherein the wing pivot assembly is configured to cause each second wing to pivot with respect to the first wing between an operating position extending from the frame in a lateral direction with respect to the longitudinal axis and a transport position alongside one of the opposed sides, and wherein the skewed hinge defines a first pivot axis oriented at an acute angle with respect to the longitudinal axis; and
a pivot bar pivotably connected at a first end to the frame and connected at a second end to the first wing.
13. An agricultural implement comprising:
a frame having a longitudinal axis and laterally opposed sides;
motive supports mounted to and supporting the frame;
a first wing carried by the frame and at least one second wing, each second wing being pivotably connected to the first wing;
an elevator mechanism configured to raise and lower the first wing and the second wing;
a wing pivot assembly comprising a skewed hinge pivotably connecting each second wing to the first wing, wherein the wing pivot assembly is configured to cause each second wing to pivot with respect to the first wing between an operating position extending from the frame in a lateral direction with respect to the longitudinal axis and a transport position alongside one of the opposed sides, and wherein the skewed hinge defines a first pivot axis oriented at an acute angle with respect to the longitudinal axis; and
a pivot bar pivotably connected at a first end to the frame and connected at a second end to the first wing;
wherein the wing pivot assembly includes a linkage assembly and an actuator, and the actuator is pivotably connected at a first end to the linkage assembly and at a second end to an actuator anchor positioned along the pivot bar so that the actuator is oriented substantially perpendicular to the first pivot axis.
14. An agricultural implement comprising:
a frame having a longitudinal axis and laterally opposed sides;
motive supports mounted to and supporting the frame;
a first wing carried by the frame and at least one second wing, each second wing being pivotably connected to the first wing;
an elevator mechanism configured to raise and lower the first wing and the second wing; and
a wing pivot assembly comprising a skewed hinge pivotably connecting each second wing to the first wing, wherein the wing pivot assembly is configured to cause each second wing to pivot with respect to the first wing between an operating position extending from the frame in a lateral direction with respect to the longitudinal axis and a transport position alongside one of the opposed sides, and wherein the skewed hinge defines a first pivot axis oriented at an acute angle with respect to the longitudinal axis;
wherein the wing pivot assembly includes a linkage assembly and an actuator pivotably coupled to the linkage assembly;
wherein the linkage assembly includes a first linkage and a plurality of second linkages, and the first linkage is pivotably connected at a first end to the second wing adjacent to the skewed hinge, and each second linkage includes a lower end pivotably connected to the first wing adjacent the skewed hinge and an upper end pivotably connected to a second end of the first linkage to define a pivoting connection adjacent to the skewed hinge.
2. The agricultural implement of
at least one third wing, each third wing being pivotably connected to one second wing; and
second wing pivot assembly pivotably connecting each third wing to one second wing and defining a second pivot axis that is transverse to a longitudinal axis of the second wing and configured to cause the each third wing to pivot with respect to the second wing.
3. The agricultural implement of
4. The agricultural implement of
5. The agricultural implement of
8. The agricultural implement of
9. The agricultural implement of
10. The agricultural implement of
11. The agricultural implement of
12. The agricultural implement of
15. The agricultural implement of
16. The agricultural implement of
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This application claims the benefit under 35 U.S.C. § 119(e) of the filing date of provisional patent application Ser. No. 62/347,279 filed Jun. 8, 2016, the disclosure of which is incorporated herein by reference in its entirety.
This disclosure relates to an agricultural implement with a foldable toolbar system, and, more specifically, to an agricultural implement with a toolbar system having one or more wings adapted to be moveable between an operating position, a transport position, and a shipping position.
Agricultural, implements with folding toolbars (also known as “wings”) are used to perform various tasks, such as spraying or otherwise applying various types of liquids, including fertilizers, herbicides, pesticides, etc., to agricultural crops as the implement is pulled or pushed across a field. In order to cover a large area during operation, the toolbars are oriented horizontally, perpendicular to the implement's direction of travel (which is often perpendicular to the rows in which the crop plants are arranged) and extend relatively large lengths to either or both sides of the implement. When the implement is not in operation, however, it may be difficult to transport or ship the implement to another location due to its dimension and size. Therefore, some toolbars are adapted to fold upwardly or against a side of the implement to reduce the horizontal extension of the toolbar, but even when folded, the toolbars increase the height or width of the implement, making transport and storage difficult. In addition, some implements require multiple actuators effecting multiple movements to move the toolbars from an operating position to a retracted (transport) position. For example, an implement may require a first actuator to elevate the toolbars, a second actuator to tilt the toolbars up and toward a centerline of the implement, and a third actuator to rotate the tilted toolbar to a transport position.
The following presents a simplified summary in order to provide a basic understanding of some aspects described herein. This summary is not an extensive overview of the claimed subject matter. It is intended to neither identify key or critical elements of the claimed subject matter nor delineate the scope thereof. Its sole purpose is to present some concepts in a simplified form as a prelude to the more detailed description that is presented later.
In accordance with an embodiment of the invention, an agricultural implement is provided that comprises a frame having a longitudinal axis and laterally opposed sides and motive (e.g., rolling) supports, such as wheels or tracks mounted to and supporting the frame. The implement further comprises a first wing carried by the frame and at least one second wing, each second wing being pivotably connected to the first wing. Optionally, the implement may include at least one third wing, each third wing pivotably connected to one second wing. The implement additionally comprises an elevator mechanism configured to raise and lower the first wing, the second wing, and the third wing. A wing pivot assembly comprising a skewed hinge pivotably connecting each second wing to the first wing, wherein the wing pivot assembly is configured to cause each second wing to pivot with respect to the first wing between an operating position extending from the frame in a lateral direction with respect to the longitudinal axis and a transport position alongside one of the opposed sides, and wherein the skewed hinge defines a first pivot axis oriented at an acute angle with respect to the longitudinal axis so that the second wing moves from the operating positon to the transport position in a single pivoting motion.
In embodiments, the agricultural implement further comprises a second wing pivot assembly pivotably connecting each third wing to one second wing and defining a second pivot axis that is transverse to a longitudinal axis of the second wing and configured to cause each third wing to pivot with respect to the second wing. In embodiments, each third wing is configured to pivot with respect to the second wing into a transport or shipping position. In embodiments, the wing pivot assembly includes a linkage assembly and an actuator coupled (e.g. pivotably coupled) to the linkage assembly.
In other embodiments, tools operatively mounted on the first, second, and third wings are provided as well as a pivot bar pivotably coupled at one end to the frame and connected at an opposite end to the first wing. In some embodiments, the tools may comprise coulters. In other embodiments, the agricultural implement further comprises a pivot bar pivotably coupled at one end to the frame and connected at an opposite end to the first wing, wherein the actuator is mounted to the pivot bar. A tank supported on said frame may also be provided.
In some embodiments, the agricultural implement may include a pivot bar pivotably coupled at a first end to the frame and connected at a second end to the first wing. The pivot bar may include an actuator anchor positioned along the pivot bar between the first end and second end. The pivot bar may include a first strut extending between the actuator anchor and the second end connected to the first wing, a second strut extending diagonally between the first strut at the actuator anchor and the first wing adjacent to the skewed hinge, and a third strut extending between the first strut and the second strut. The second strut may be oriented perpendicular to the first pivot axis so that the second strut stabilizes the end of the first wing against forces exerted by the actuator.
In some embodiments, the linkage assembly may include a first linkage and a plurality of second linkages. The first linkage may be pivotably connected at a first end to the second wing adjacent to the skewed hinge, and each second linkage may include a lower end pivotably connected to the first wing adjacent the skewed hinge and an upper end pivotably connected to a second end of the first linkage to define a pivoting connection adjacent to the skewed hinge. The actuator may include a housing and a first rod, in which the first rod extends from a first end of the housing and is connected to the linkage assembly at the pivoting connection. Accordingly, the first rod of the actuator may actuate during the folding operation, thereby causing the second wing to rotate around the skewed hinge from the operating position to the transport position. The actuator may include a second rod extending from a second end of the housing and pivotably connected to a pivot bar, and the pivot bar is pivotably connected at a first end to the frame and connected at a second end to the first wing.
Other features and characteristics of the subject matter of this disclosure, as well as the methods of operation, functions of related elements of structure and the combination of parts, and economies of manufacture, will become more apparent upon consideration of the following description and the appended claims with reference to the accompanying drawings, all of which form a part of this specification, wherein like reference numerals designate corresponding parts in the various figures.
The accompanying drawings, which are incorporated herein and form part of the specification, illustrate various embodiments of the subject matter of this disclosure. In the drawings, like reference numbers indicate identical or functionally similar elements.
While aspects of the subject matter of the present disclosure may be embodied in a variety of forms, the following description and accompanying drawings are merely intended to disclose some of these forms as specific examples of the subject matter. Accordingly, the subject matter of this disclosure is not intended to be limited to the forms or embodiments so described and illustrated.
Unless defined otherwise, all terms of art, notations and other technical terms or terminology used herein have the same meaning as is commonly understood by one of ordinary skill in the art to which this disclosure belongs. All patents, applications, published applications and other publications referred to herein are incorporated by reference in their entirety. If a definition set forth in this section is contrary to or otherwise inconsistent with a definition set forth in the patents, applications, published applications, and other publications that are herein incorporated by reference, the definition set forth in this section prevails over the definition that is incorporated herein by reference.
Unless otherwise indicated or the context suggests otherwise, as used herein, “a” or “an” means “at least one” or “one or more.”
This description may use relative spatial and/or orientation terms in describing the position and/or orientation of a component, apparatus, location, feature, or a portion thereof. Unless specifically stated, or otherwise dictated by the context of the description, such terms, including, without limitation, top, bottom, above, below, under, on top of, upper, lower, left of, right of, in front of, behind, next to, adjacent, between, horizontal, vertical, diagonal, longitudinal, transverse, radial, axial, etc., are used for convenience in referring to such component, apparatus, location, feature, or a portion thereof in the drawings and are not intended to be limiting.
Furthermore, unless otherwise stated, any specific dimensions mentioned in this description are merely representative of an exemplary implementation of a device embodying aspects of the disclosure and are not intended to be limiting.
The use of the term “about” applies to all numeric values specified herein, whether or not explicitly indicated. This term generally refers to a range of numbers that one of ordinary skill in the art would consider as a reasonable amount of deviation to the recited numeric values (i.e., having the equivalent function or result) in the context of the present disclosure. For example, and not intended to be limiting, this term can be construed as including a deviation of ±10 percent of the given numeric value provided such a deviation does not alter the end function or result of the value. Therefore, under some circumstances as would be appreciated by one of ordinary skill in the art a value of about 1% can be construed to be a range from 0.9% to 1.1%.
As used herein, the term “set” refers to a collection of one or more objects. Thus, for example, a set of objects can include a single object or multiple objects. Objects of a set also can be referred to as members of the set. Objects of a set can be the same or different. In some instances, objects of a set can share one or more common properties.
As used herein, the term “adjacent” refers to being near or adjoining. Adjacent objects can be spaced apart from one another or can be in actual or direct contact with one another. In some instances, adjacent objects can be coupled to one another or can be formed integrally with one another.
As used herein, the terms “substantially” and “substantial” refer to a considerable degree or extent. When used in conjunction with an event, circumstance, characteristic, or property, the terms can refer to instances in which the event, circumstance, characteristic, or property occurs precisely as well as instances in which the event, circumstance, characteristic, or property occurs to a close approximation, such as accounting for typical tolerance levels or variability of the embodiments described herein.
As used herein, the terms “optional” and “optionally” mean that the subsequently described, component, structure, element, event, circumstance, characteristic, or property may or may not be included or occur and that the description includes instances where the component, structure, element, event, circumstance, characteristic, or property is included or occurs and instances in which it is not or does not.
In an embodiment of the present invention, the toolbar system includes a plurality of wings, or booms, that extend from a central vehicle frame and on which one or more tool components is (are) operationally mounted, including at least one first or center wing, at least one second or inboard wing, and at least one third or outboard wing. In an embodiment, the toolbar system may include a first or center wing, and a second or inboard wing pivotably connected to and extending from each of the opposed ends of the center wing, and a third or outboard wing pivotably connected to and extending from an outboard end of each inboard wing. The toolbar system may also include one or more tools, such as coulters and/or fluid nozzles, operationally attached to one or more of the wings and configured to work or condition the soil in some way and/or apply a fluid substance to plants and/or the soil during operation of the implement. While the concepts encompassed herein are exemplified by description of an agricultural sprayer implement having laterally-extending wings and coulters and spray nozzles, operationally mounted on the wings, the present disclosure is not restricted to a sprayer or implement including coulters, and it will be appreciated that any suitable tools may be coupled to the wings of the toolbar system.
In the illustrated embodiment, implement 300 includes two inboard (second) wings 203, one attached to each end of the center (first) wing 205 and extending laterally to each side of the frame 303 and two outboard (third) wings 201, one attached to each outboard end of one of the inboard wings 203. In an alternate embodiment, the implement may include only one inboard wing 203 attached to one end of the center wing 205 and extending laterally to one side of the frame 303 and only one outboard wing 201 attached to an outer end of the inboard wing 203. In an alternate embodiment, the implement may include at least one inboard wing 203 but no outboard wing.
The toolbar system 100 may include an outboard wing 201, an inboard wing 203, a center wing 205, and an elevator mechanism 150 (see
The wings 201, 203, 205 in
Each inboard wing 203 may be mounted to a respective end of the center wing 205 so as to be pivotable with respect thereto. In one embodiment, each inboard wing 203 is mounted to the respective end of the center wing 205 by a first wing pivot assembly 110 including a hinge or linkage 113 defining a first pivot axis 114 configured to permit the inboard wing 203 to pivot with respect to the center wing 205 and including an actuator 120 configured to cause the inboard wing 203 to pivot with respect to the center wing 205. The first pivot axis 114 is generally horizontal in orientation and is skewed at an acute angle with respect to longitudinal axis D1 as will be described below.
Each outboard wing 201 may be mounted to the end of a respective inboard wing 203 so as to be pivotable with respect thereto. In one embodiment, each outboard wing 201 is mounted to the respective inboard wing 203 by a second wing pivot assembly comprising a hinge or linkage 407 configured to permit the outboard wing 201 to pivot with respect to the respective inboard wing 203 and defining a second pivot axis (reference number 407 may be used to refer to the second pivot axis or the hinge or linkage defining the second pivot axis). The second pivot axis 407 is generally horizontal in orientation and parallel to a longitudinal axis D1 of the implement 300 (see
An actuator 406, such as a linear actuator such as a hydraulic piston, is provided to effect powered rotation of each outboard wing 201 with respect to its associated inboard wing 203. In the illustrated embodiment, one end of the actuator 406 is attached to the inboard wing 203 and the opposite end of the actuator 406 is coupled (e.g. pivotably coupled) to the linkage 407 defining the second pivot axis. Actuator 406 is extended to position the outboard wing 201 in the extended position as shown in
The wings 201, 203, 205 in
In various embodiments, when the inboard wing 203 is in the lowered operating position as shown in
An exemplary elevator mechanism 150 is shown in
The toolbar system 100 is configured to move the inboard wings 203 and outboard wings 201 to a transport position as shown in
By rotating the wings 201, 203 as far inwardly toward the tank 301 (i.e., beyond merely parallel to center longitudinal axis D1 and center vertical axis C2) the implement 300 presents the smallest possible width in the transport configuration.
In one embodiment, the inboard wing 203 rotates about 161°±5.0 with respect to the center wing 205 from the lower operating position (
As shown in
In addition to pivoting the outboard wing 201 downwardly with respect to the inboard wing 203, a number of inboard coulters 503 and outboard coulters 501 can be removed from the inboard wing 203 and outboard wing 201, respectively. In addition, the remaining coulters 501 and 503 on the outboard wing 201 and inboard wing 203, respectively, can be turned sideways (e.g., about 90° from their operating positions) as shown in
These adjustments to the outboard wing 201 and to the coulters reduces the overall height, width, and length of the implement 300, thereby providing for a more compact shipping configuration. By way of illustration, and without intending to be limiting, as shown in
The different angles of the skewed hinge shown in
Details of the first wing pivot assembly are shown in
The first wing pivot assembly 110 includes an actuator 120 coupled (e.g. pivotably coupled) at one end to an actuator anchor 146, positioned at a middle portion of the main pivot bar 140, and coupled (e.g. pivotably coupled) at an opposite end to a linkage assembly 113. Actuator 120 may comprise a linear actuator oriented so as to apply force in a direction that is generally perpendicular to the first pivot axis 114. Actuator 120 may comprise a hydraulic cylinder comprising a housing 122 with a first piston rod 124 and a second piston rod 126 not shown in
The linkage assembly 113 comprises a first linkage 116 pivotally connected at one end 115 (see
The first rod 124 of the actuator 120 extending from one end of a housing 122 is connected to the linkage assembly 113 at the pivoting connection 117. A second rod 126 (see
The first rod 124 of the actuator 120 is actuated during the folding operation which causes the inboard wing 203 to rotate around the first pivot hinge 112 from the raised operating position (
The process of rotating the inboard wing 203 about the pivot hinge 112 in respect to the center wing 205 can also be achieved by using an actuator with only 1 rod and the use of mechanical or hydraulic limiters to create the two ranges of travel.
The action of raising the toolbar 100 from the lowered operation position in
As shown in
As shown in
Thus, a single actuator—actuator 120—both pivots the inboard wing 203 upwardly and toward the centerline of the implement and swings the inboard wing 203 rearwardly to the transport position. The first pivot axis defined by the skewed hinge, being oriented at an acute angle with respect to the longitudinal axis D1 (the longitudinal centerline of the implement 300) and the lateral axis A, allows the inboard wing to pivot from the operating position (e.g.,
As shown in
As shown in
In
In
In
As further shown in
In
In
In
In an embodiment, the full angular rotation of each inboard wing 203 with respect to the center wing 205 about the skewed hinge 112 in moving from the lowered operating position (
An advantage of the implement as described herein is that by lifting and folding the toolbar, the overall width of the implement may be reduced. Narrower road transport width may be beneficial to the operators by making it safer and more convenient to transport the implement on the roads. In addition, each third wing may be folded downwardly with respect to each second wing when the implement is set in the transport position, thereby reducing the overall height of the implement while being transported on the roads. Further, when the toolbar is in the shipping position, each third wing is folded downwardly with respect to each second wing, and the tools coupled to the wings are removed, rotated, or pushed down as described above, the height and width of the spray implement may be reduced, thereby reducing the overall shipping height and width of the implement. This makes it more practical to ship the implement in an assembled, or nearly-assembled, configuration, thereby avoiding or limiting assembly requirements on the receiving end as well as avoiding added shipping expenses associated with shipping permits and shipping escorts.
While the subject matter of this disclosure has been described and shown in considerable detail with reference to certain illustrative embodiments, including various combinations and sub-combinations of features, those skilled in the art will readily appreciate other embodiments and variations and modifications thereof as encompassed within the scope of the present disclosure. Moreover, the descriptions of such embodiments, combinations, and sub-combinations is not intended to convey that the claimed subject matter requires features or combinations of features other than those expressly recited in the claims. Accordingly, the scope of this disclosure is intended to include all modifications and variations encompassed within the spirit and scope of the following appended claims.
Schlimgen, Ronald Joseph, Nelson, August Paul
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Jun 01 2017 | Unverferth Manufacturing Co., Inc. | (assignment on the face of the patent) | / | |||
Jun 09 2017 | SCHLIMGEN, RONALD JOSEPH | UNVERFERTH MANUFACTURING COMPANY, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 043318 | /0759 | |
Jun 09 2017 | NELSON, AUGUST PAUL | UNVERFERTH MANUFACTURING COMPANY, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 043318 | /0759 |
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